IEEE 39-bus PMU measurements of 10 generators

The dataset contains PMU measurements of all ten generators of IEEE 39-bus transmission system model. The dataset was obtained by using RTDS power system simulator and was stored by using Synchro-measurement Application Development Framework (SADF) Matlab library. Dataset constructs in total 86.6s of simulation and 5197 PMU measurements per generator. The dataset contains PMU measurements of the following three use-cases, executed consecutively in one simulation: A. Quasi-steady-state operation, where generator G1 mechanical torque is being modulated every 200 ms with a random perturbation within ± 1 % of the nominal value. B. Change in topology (2 times) caused by the applied three-phase self-cleared fault on bus B25 with permanent tripping of line B2-B25 and the delayed line B2-B25 reconnection. C. Temporal perturbation caused by the three-phase self-cleared fault on bus B14. Use-case A continues with the use-case B. In the use-case B, a fault is applied, leading to line B2-B25 permanent disconnection. This results in the topology change, which also affects the groups of slow coherent generators. Moreover, approximately 37 s after the fault, the line B2-B25 is reconnected to restore the initial topology (as in the use-case A) which also affects the generator coherency. It can be concluded, that the topology change (line disconnection) leads to coherency change, which returns to its initial configuration after the line is put back to operation (as in the use-case A). Finally, in use-case C, the quasi-steady-state conditions, as in use-case A, are followed by a three-phase 80 ms self-cleared fault on bus B1.